Even if the track and gap widths are made narrow in a read head, a narrow track head has so far been unable to afford satisfactory off-track characteristics because of a wide shield spacing over electrodes. The invention provides a magnetic head wherein, in the height direction of a magnetoresistive element, the spacing between an upper magnetic shield and a lower magnetic shield at an air bearing surface is narrower than the spacing between the upper and lower magnetic shields formed over a thickest portion of each of electrodes in contact with associated magnetic domain control layers.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A magnetic head comprising: a lower magnetic shield; a magnetoresistive element formed over said lower magnetic shield; a pair of magnetic domain control layers formed at both ends in a track width direction of said magnetoresistive element to control magnetic domains of the magnetoresistive element; a pair of electrodes formed on and in contact with said magnetic domain control layers; and an upper magnetic shield formed over said magnetoresistive element and said electrodes through an insulating film; wherein, in a height direction which is perpendicular to an air bearing surface of said magnetoresistive element, the thickness of each of said electrodes at said air bearing surface is smaller than the thickness of a thickest portion of the electrode.
2. A magnetic head according to claim 1 , wherein the thickness of each of said electrodes becomes minimum at said air bearing surface.
3. A magnetic head according to claim 1 , wherein the thickness of the thickest portion of each of said electrodes is about 50 nm or more.
4. A magnetic head according to claim 1 , wherein surfaces of said electrodes facing said air bearing surface are tapered.
5. A magnetic head according to claim 1 , wherein said electrodes and said magnetic domain control layers are used in common.
6. A magnetic head according to claim 1 , wherein said electrodes have electrically conductive underlying layers at portions thereof in contact with said magnetic domain control layers.
7. A magnetic head comprising: a lower magnetic shield; a magnetoresistive element formed over said lower magnetic shield; a pair of magnetic domain control layers provided on side faces of said magnetoresistive element to control a magnetic field of the magnetoresistive element; a pair of electrodes formed on and in contact with said magnetic domain control layers to apply an electric current to said magnetoresistive element; and an upper magnetic shield formed over said magnetoresistive element and said electrodes through an insulating film; wherein, in a height direction which is perpendicular to an air bearing surface of said magnetoresistive element, a difference in height between an upper magnetic shield and an upper surface of a magnetoresistive element at air bearing surface portions where electrodes are provided is shorter than a difference in height between an upper surface of a thickest portion of each of the electrodes and the upper surface of the magnetoresistive element.
8. A magnetic head according to claim 7 , wherein, in said height direction, the distance between said upper magnetic shield and said lower magnetic shield over each of said electrodes at the air bearing surface is shorter than the distance between an upper surface of the thickest portion of the electrode and the lower magnetic shield.
9. A magnetic head according to claim 7 , wherein said electrodes and said magnetic domain control layers are used in common.
10. A magnetic head according to claim 7 , wherein said electrodes have electrically conductive underlying layers at portions thereof in contact with said magnetic domain control layers.
Cooperative Patent Classification codes for this invention. Click any code to explore related patents in that topic.
January 20, 2006
September 8, 2009
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